RU185262U1 - Cumulative explosive charge - Google Patents

Abstract

The utility model relates to blasting and can be used for secondary crushing of oversized pieces of rock in open and underground mining, destruction of building structures, metallurgical waste, various types of special blasting related to the directed action of the explosion. Flexible elastic closed shell made of arbitrary shape and filled with emulsion explosive. The cumulative lining is made in the form of an equal-shelled corner made of refractory metal, and the length of the corner is taken no more than 0.8 L, m, where L is the maximum linear size of the shell when laying on a horizontal surface, and the angle between the shelves of the corner is taken no more than 60 °. 1 wp 2 ill.

Description

The utility model relates to blasting and can be used for secondary crushing of oversized pieces of rock in open and underground mining, destruction of building structures, metallurgical waste, various types of special blasting related to the directed action of the explosion.

Known cord shaped charge (patent of the Russian Federation No. 33640, publ. 10/27/2003), consisting of a charge of an explosive in the form of a shaped rod with a longitudinal cumulative recess and a lining of a cumulative recess, according to the invention, the charge is made of elastic explosive, and the lining of the cumulative recess is made of an elastic composition containing a powdered metal (iron, copper) and a polymer binder.

The disadvantage is the high cost of manufacture and transportation, the inability to adjust the mass of the charge during blasting.

Known cumulative charge (patent RU No. 2160880, 12/20/2000, bull. No. 35). The cumulative charge contains explosive material, a cumulative sleeve that creates a hollow space. The sleeve is made destructible upon impact of a blast wave with the formation of a jet penetrating through various materials. To give a certain shape to a diverging blast wave, a lens made of a material with a low sound propagation velocity and a high refractive index was used.

The disadvantage is the high cost of manufacture and transportation, the inability to adjust the mass of the charge during blasting.

Known cumulative charge (patent RU No. 2364819, 08/20/2009, bull. No. 23). The cumulative charge contains a lining in the form of a side surface of a straight circular cone, having on the inner surface a relief of isolated recesses and elongated intersecting protrusions, each of which is characterized by a conditional line running along the protrusion at an equal distance from the borders of the recesses adjacent to the protrusion and made of sheet copper or alloy based on it. A grid of conditional lines divides the surface of the cladding into polygonal cells, with each cell having a shorter length (5.0-7.5) h, where h is the thickness of the cladding.

The disadvantage is the high cost of manufacturing and transportation, the inability to adjust the mass of charges in the blasting process.

Known cumulative charge (patent RU No. 2303232, 07/20/2007, bull. No. 20). The cumulative charge contains an enclosure in the form of an open shell, an explosive placed inside it, and a lining located in the open part of the housing with a relief on the surface facing the explosive, made of protrusions or depressions in the form of strips forming polygons. Facings are made of various shapes in the form of plates, cones, segments, hemispheres with a certain ratio between the mass of the explosive and the mass of the lining used.

The disadvantage is the complexity of the application and the lack of effectiveness of the retention of explosive gases.

Known cumulative explosive charge adopted for the prototype (RF patent No. 2356009, 05/05/2009). The cumulative charge of an explosive contains an explosive in the shell, a cumulative lining placed in a cumulative recess, an initiating means. A polymer container is used as the charge shell, the bottom of which is made in the form of several parallel elongated shaped shaped shaped recesses with a ratio of the height of the cumulative recess to its width from 0.85 to 1.9, adjacent to each other or separated by flat sections of the bottom with a width of 0 , 3-0.4 widths of the cumulative recess. Through holes are made on opposite walls of the polymer container at the level of placement of the linear initiators of the explosion. As a means of initiation, it contains linear initiators of an explosion of the same length, initiated simultaneously, located in the upper layer of explosive above an edge passing above the top of each cumulative recess at a distance from it no more than the height of the cumulative recess. The initiators are closed from above with a layer of explosive with a height equal to at least half the critical diameter of the detonation of the explosive. The ends of the linear initiators of the explosion brought out. In the upper part of the polymer container above the layer of explosive is placed a lid or jamming of inert material. The cumulative charge is installed directly on the surface of the oversized or at a distance of not more than four heights of the cumulative recess.

The disadvantage is the high cost of manufacture and transportation, the inability to adjust the mass of the charge during blasting.

The technical result of the claimed utility model is to reduce the cost of manufacture and transportation, as well as the ability to adjust the mass of the charge during blasting.

The technical result is achieved by the fact that in the cumulative charge of an explosive containing an explosive in a polymer shell, the cumulative lining placed in the cumulative recess, the initiating means, according to the invention, the cumulative lining is attached to the outside of the shell using an elastic joint, a flexible elastic closed shell is made arbitrary forms and is filled with emulsion explosive, and the cumulative lining is made in the form of an equal-shelf corner made of a refractory melt alla, wherein no more than 0,8L corner length accepted m, wherein L - the maximum linear dimension of the shell when it is laying on a horizontal surface, and the angle between the corner flanges take no more than 60 degrees.

The technical result is also achieved by the fact that as a flexible closed shell using a plastic bag with ties.

The technical result is also achieved by the fact that the cumulative lining is mounted on the outside of the cumulative recess using an elastic connection.

The cumulative charge of the explosive is illustrated by the drawings, where in FIG. 1 shows a section through a cumulative charge along the longitudinal axis, FIG. 2 shows a cross section of a cumulative charge, where:

1 - flexible elastic closed shell of arbitrary shape, for example in the form of a bag with ties;

2 - emulsion explosive in a flexible flexible closed shell 1;

3 - means of initiation, for example, a detonating cord;

4 - cumulative lining made by waybill on the outside of the shell 1 in the form of an equal-shelf corner made of refractory metal, the length of the corner taken no more than 0.8 L, m, and the angle between the shelves of the corner not more than 60 degrees;

L is the maximum linear size of the shell 1 when laying on a horizontal surface, m

The cumulative explosive charge contains a flexible flexible closed shell 1 of arbitrary shape, for example in the form of a bag with ties. In a flexible flexible closed shell 1 is placed emulsion explosive

2. Inside the flexible flexible closed shell 1 is placed the means of initiation

3, for example, a detonating cord. In the lower part of the flexible flexible closed shell installed cumulative lining 4, made invoice on the outside of the shell 1 in the form of an equal-angle corner of refractory metal, such as copper or brass. The length of the cumulative lining 4 - equal-angle corner adopted no more than 0.8L, m, and the angle between the shelves no more than 60 degrees. The length of the cumulative lining 4 is more than 0.8L, m leads to an overexpenditure of the material without increasing work efficiency. The internal angle between the shelves of the cumulative lining 4 - equal-angle corner take no more than 60 degrees to ensure effective penetration of the cut oversize. An angle between shelves of more than 60 degrees does not contribute to increasing the efficiency of cutting oversize.

The cumulative charge of explosives works as follows. Flexible, elastic closed shells 1 of arbitrary shape are delivered folded to the object where blasting is underway, for example, in the form of packets with ties of the necessary and sufficient size. The number of shells 1 is determined by the project for cutting oversized. They also deliver emulsion explosive 2 and cumulative lining 4 made by the invoice on the outside of the shell 1 in the form of an equal-angle corner made of refractory metal, the length of the corner not exceeding 0.8 L, m, and the angle between the shelves not exceeding 60 degrees.

An emulsion explosive 2, or any other bulk explosive, is poured or poured into each flexible elastic closed shell 1 of arbitrary shape. After the spill of emulsion explosive 2, it is transferred in the shell 1 to the place where the oversize is cut, or the emulsion explosive is filled in the shell 1 directly on the oversize. When placing a flexible elastic closed shell 1 filled with emulsion explosive 2 on an oversize or in front of it, a cumulative lining 4 is placed on the oversized lining. Then, a flexible elastic closed shell 1 with emulsion explosive 2 is laid on the cumulative lining 2. If necessary, use an elastic joint to provide a denser contact of the surface of the flexible flexible closed shell 1 with the cumulative lining 4 or the exclusion of sliding relative to each other. The material of the cumulative lining 4 is taken from the condition that the melting point is exceeded by the explosion temperature of the explosive used. The thickness of the material of the cumulative lining 4 is determined by experimental, experimental-analytical or analytical methods. Prior to installation, the cumulative lining 4 in the form of an equal-flange corner made of refractory metal is cut to a length of not more than 0.8L, m for a more complete use of the energy of the explosion.

Then, by means of indentation, a means of initiation 3 is introduced into the flexible elastic shell 1, due to the properties of flexibility, elasticity and isolation of the shell 1, it is possible to exclude the puncture and leakage of emulsion explosive 2. The flexibility and elasticity of the materials of the shell 1 are chosen by experimental, experimental, analytical or analytical methods.

The use of a cumulative explosive charge provides the following advantages:

- reduction in the cost of manufacture and transportation,

- the ability to adjust the mass of the charge during blasting within wide limits;

- simplification of the design of the device.

Claims (2)

1. The cumulative charge of an explosive containing an explosive in a polymer shell, a cumulative lining placed in a cumulative recess, an initiation means, characterized in that the cumulative lining is attached to the outer side of the shell using an elastic joint, flexible elastic closed shell is made of arbitrary shape and filled emulsion explosive, and the cumulative lining is made in the form of an equal shelf corner made of refractory metal, and the length of the corner is taken no more than 0.8 L, m, where L is the maximum linear size of the shell when laying on a horizontal surface, and the angle between the shelves of the corner take no more than 60 degrees. 2. The cumulative charge according to claim 1, characterized in that a plastic bag with ties is used as a flexible closed shell.

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